Explosive-engine.



H. H. WIXON. EXPLOSIVE ENGINE. APPLicATIoN FILED MAY14. 1910.

HVHL WXON. EXPLOSIVE ENGINE. APPLICATIQN FILED MAY 14, 19m.

r atented Mar 4 SHEETS-SHEET 2.

A T TOHNE Y H. H. WIXON. EXPLOSIVE ENGINE. APPLICATION FILED IIIAY I4. I9I0.

Patented Mar. 111, 1916.

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4 SHEETSSHEET 3.

WI TNESSES:

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Hx H, WIXON. EXPLGSIVE ENGINE, APPLICATION man MAY 14. |910.

Q Faente Mar. 14, 1915,

4 SHEETS-SHEET 4.

` chiefly to improve .ro- N EXPLOSVE-ENGINE.

Specication of Letters Patent.

Palmi@ Mm"- lpplication filed May i4, 1910. Serial No. 561,350.

lle it known thatl, l-lowann H. Wilton, a citiaen of the United States, residing at Chicago, in the county of Cook and State of Illinois, have invented a certain new and useful Improvement in Explosive-Engines, of which the following is a.full, clear, concise, and exact description, reference being had to the accompanying drawings, forming a part of this specification.

My invention relates to internal combu'stion engines, most of the novelty thereof relating' particularly to suoli engines in which the combustible is burned explosively on what is commonly called the two stroke cycle'. l

The object 'of my present invention is 'the construction and operation of two stroke cycle engines of my invention as shown in my earlier applicap tion,'Serial No. 343,277, filed Nov. 13, 1906,

and my earlier Patent No. 947,566 granted Jan. 25th, 1910 though my present invention is not limited to detailinlprovement of my earlier inventions.' he general objectpf my present invention is the same as in my earlier inventions,

the main object being to provide a compact '5 1s a view` of. the other,

and highly eiiicient two cylinder engine.

The invention consists in the features of construction, operation, combination and arrangement of parts described in this speciication, illustrated :in the accompanying drawings, and particularly pointed out or specified in the appended claims. This engine', like my earlier ones, is especially adapted for use in automobiles and like service, though it is not limited to such use or application and can be widely modified infmany ways for other use without departure from the invention as hereinafter claimed. y

ln the accompanying drawings: Figure l is a central longitudinal section of mv engine alongl the line a-- of Fig. or (shouzu ing the mechanism and parts on this section; Fig. 2 is a cross section of my engine alongth'e line c-d of Fig; l or mechanism and parts on this section; Fig. 3 isa cross section of the safety device used to protect the transfer valve and its oper ating mechanism; Fig. 4i is a side view of showing' the n'iechanism and parts on the lXhaust side of the engine; Fig. p or inlet side of my engine, showing the mechanism and parts on 5 showing the this side; Fig. 6 is an end view showing; the governor end of my engine; F ig.. 7 is a view showing 'the top of my engine; Fig. 8 is a. cross .section of the cylinders along the line ee-,' of Fig. 5; Figs. 9 and end views of one of the transfer valve opening cams; Figs. 10 illustrate the relative positions of a pair of opening and closing transfer valve cams under different positions of engine load; Figs. 11 are (enlarged) side and end views of one of the transfer valve closing cams; Figs. l2 are a (enlarged) side and end View of one of the air valve cams; Figs. 13 are a (enlarged) side and end'view of one of the-inlet valve cams; Fig. 14 is a section of the inlet valve casing, etc. along the line g-lt of Fig. 8; Fig. 15 is an enlarged view of the governor and part of the attached camshaft etc.; Figs. 16, a to C inclusive, are cross sections at different points of Fig. l5; Fig. 16i is across section on the line D-D of Fig. 15; Fig. 16e isa-.cross section 'on the line E--E of Fig. ll5; Fig-17 is a longitudiw nal section along the line j-`j olf-Fig. l5; and Fig. 18 is a diagram to illustrate the operation of my engine.

are (enlarged) side 'ZUM The same reference characters indicate pump supply of the plosive charge to the explosion chamber or` cylinder, an air charge in addition to. and

ahead o f the explosivecharge7 and return or rejection of part of tht-.explosive charge from the explosion chamber; above elements being used for the same general purpose or purposes as in my earlier engines. y Q' The following is a` description of my engine as I prefer to construct it with ltwo cylinders l and 2 and the water jacket 3, all in one piece, no attempt being, made to show details of manufacturing construction not necessary for an understandingl of the invention. Each cvlinder is bored out with a small bored and 5 which forms an explosion chamber and a large which forms a pump. Each cylinderis provided with a two 'diameter or double area piston 8 and 9. Each y end or small part provided with rings l0and litting the bore of the explosion chamber, while the lower end is enlarged and fits the bore of the pump chamber .being also provided with rings ll.

piston in each pump 'bore '6 and 7 v .90 all three of the ica piston has the upper chamber 6 and 7, while the smaller end ot each piston acts as a piston in each explo sion chamber d and 5. These pistons 8 and 9 are connected to the crank shaft l2 by the connecting rods 13, the cranks ot the connecting rod being set one-halt revolution or 180 degrees from each other, and the cranio shaft is preferably provided with a. fly-wheel or balance wheel ll. )Fastened on this crankshaft is the gear l which drives .thefcamshaft 16 through gears 17 and i8 and also drives the camshaft 19 through gears 2O and 21.

22-is the explosive mixtureV inlet. Any suitable device or way of furnishing the explosive mixture or charge of gasand air) may be used, but as the engine illustrated in the drawings is intended as an example of an automobile engine, and these engines are usually used with carburetor-s and usually use gasolene as a fuel, for the! purpose ci particular illustration my engine may be assumed, as herein referred to, tobe provided with a gasolene carburetor, preferably of the type known as an automatic carburetor, the carburetor being attached to and furnishing the explosive mixture to the engine 'through the inlet 22 which serves as a coinrncn inlet pipe for both cylinders.

The inlet 22 connects with passage 23 through which the mixture is supplied (or admitted) through passage 24 or to the pump chambers 6 or 7 (respectively) under the control of the inlet valves 2G and 27.

.These inlet valves are 'operated (preferably as shown) by the inlet cams 2S and 29 which are fastened on the camshaft lli and rotate in unison with the engine crankshaft. The inlet valves are normally held closed by the springs 30l and 31. The stems of these valves may be provided with rollers 32 to minilmiie the wear on the engaging or wearing surfaces. On the camsha't't 18 are also fas tened the air valve cams 33 and 3J: which operate the/air valves 35 and 36, airvalve 36 being normally held closed by spring 3S)l on the rod 3,8 which connects with lever 37, which connects with the stein of said valve 36, while air valve is similarly, normally held closed by the spring 42 on the rod lll connected to the lever 4:0 attached to said valve 35, the ends of the rods 38 and Lll also having rollers 43 to minimize wear or friction. f

ln the top of eachA cylinder or explosion chamber is placed the transfer valve 44 or 45, the stems of which pass through the stems of the air valves 3G and 35, this ar rangement being herein termed concentric. The valve 44 is normally held closed by the i spring d6 on the rod 47connected to lever 48 attached to the lstern of said' valve elli, while valve is normally held closed by spring 49 on the rod 50 connected to lever 5l attached to the stem of saidvalve 45. Roll 'incassa ers 5S and 59 are provided to reduce friction on the operating canis, the roller 58 being wide enough to extend over the two cams 60 and 55 (compound cam) ,-while the roller 59 is wide enough to extend over the two cams 5G and 5T, said cams being carried and rotated by the camshaft l5). The operation of these compound cams and camshaft is hereinafter more fully described.

'lhe auxiliary air closing valve (il is provided to close thepassage b2 (air inlet) under certain conditions which will hereinafter be more fully described. This valve (il is *fastened on the rod G3 having the lever G4;

attached, a partial rotation of rod (i3 with the valve operating to close the passage or air inlet (32. Lever (il connects with rod G5 connecting with lever (i7 (pivoted on pin (58) connecting with rod 69 which passes `t'reely through a hole in the controlling lever 7l, the end of rod (il) being provided with a screw thread and nut 7G which may be ad justed on rod (i9.

llllien the controlling lever 7l is moved (as hereinafter deci-iberi) over to, or fan ther than, the posi .on indicated by the dash line 72, it will engage the adjustable nut 7G which thereby operates through rod G9 and connected parts to close the air valve (il in the passage (32, the air valve (il being normally held open by the spring GG on the rod (35. Thus the adjusting nut Z0 determines when the air valve (il shall close in relation to the movement of the controlling lever 7l.

The exhaust ports and 53 are placed near the lower end of cach explosion chamber where they will be opened by their respective pistons, when said pistons are at or near the bottom of their stroke, said exhaust ports (which may be extended more around the cylindenif desired) preferably uniting in one, common exhaust passage ln (or forming'part of) each rod l? or 50 is the safety' device 74 which is used to prevent breakage or undue strain on either of the transfer valves +14 or l5 or connected parts or operatinnl mechanism therefor. F ig. 3 is an enlarged section of this safety device Z4- in which the upper end of the rod '47 is screwed into the cylindrical case 75 through which the lower end of the rod 47 passes (being designated as 47uA in Fig. 3) this part of'the rod being 'provided with the shoulder 76.l rather strong spring 77 is inserted 'between the ends o ythe rods or parte` designated as 473' and 47, and it will be seen that when a normal `force is ea'.` erted on part ela (a force below the tension of the spring) it will be directlytransanitted through the spring to part 47 as vthough 'the-whole safety device were a solid 'part- New, if from some cause, part 47 should be held against the forced movement ot part t7, itwill be seen that spring 77 will yield and prevent breakage:

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"19 is also provided ivith two similar slots la the normal operation of my engine, the

rod 47 having the safety device 74 inserted 'cams lwhen the valve is opened. lf however troni seme cause there should he a high pressure in the explosion chamber, as for instance when the eilosive mixture is ignited at the wrong tinie causing the engine to turn or lticlt baolrivard, the 'valve le it closed will. be held to its seat with a strong torce and if the valve operating; earns corne into operation to open this 'v alve at this time, an un` due strain or 'torce vill be exerted on all the parts rendering theni liable to breakage if not made unsually strana', and it is at this time that spring 7i' will yield and pre vent this strain or damage so that all these parts can be made a great deal lighter v'ithout .danger o'i` breakage.

At 78 and 79 are indicated. spark plugs, the sparking points of which are inside ot' their respective explosion chambers and to which a suitable ignition current is furnished in the well known manner. y

Now referring to the mechanism for governing or controlling the engine, the gear wheel 21 is held in its hearing 30 by the collar 81 (on the gear Wheell. The canishat 19 is tree to move longitudinally through the near wheel 21. and is provided with a straight lreyway or slot 82 which extends nearly throughout its entire length, the gear wheel 21 having the key 83 tiastened therein and engaging the slot 82, thus rotating the shaft 19 in unison with the engine regardless of what longitudinal position the shaft 19 may be in. rlhe camshaft or keyways, one keyway under, or in a suitable position to engage with a key and thereby operate one of the cams in the pair ot"\cams (l0-55. and the other keyway under, or in a suitable position to engage with a key and thereby operate one of the cams in the pair of cams 5de-57; but these two leyways are comparatively short and extend across the shaft 19 in a slanting or diagonal position. One of these diagonal keyways is particularly illustrated in Figs. 10- and 15 to 17. This keyway 8l (dotted in 17) preferably is on the opposite side of the shaft 19 from the straight keyway 82. Fig. 16a is a section aloner A-A oi Figl, while Fig. 16D is a section along B-B, and Fig. 1Gc is a'section along C-C, these sectional figures showing the relative positions of these different points .of the diagonal keyway 84 to the saine point on the straight keyway 82.

One ot the transfer valve cams 60 is shown enlarged in Figs. 9, and is provided with. the key 85 which is fastened therein.

This cani 60 is 'free are also canas -56-5'0 on the camshaft 19, hat is rotated. thereby hy the key 8B which engages in the straight lrey'ivay 82 so that this cam, which is the cani that opens the transfer valve is rotated in unison with and in some position related to the engine parte regardless ofthe longitudinal position of the cinishaft 19. The other cani 55 for the transiter valve illl is the closingY cani, that is, it determines the point at which the transfer valve closes and. thi. point variable. ln the enlarged figures oi this transfer valve elo-sii g cani in Figs. 11, the hey 8G is fas tened therein and this hey 86 engages in the diagonal or spiral slot Sel in the camshaft 19 so that a relative longitudinal movement of this camshaft will cause the cam 55 to partly rotate on the camshaft so that this movement of the camshaft will cause a relative movement of cani 55 in relation to the engine parts and in relation to cam (i0, and this relative movement of the cams is particularly illustrated in the three end views ortigures designated as Figs. 10.

ln Fig. 10 at F is shown the relative position (which corresponds .to full engine load position) of a, pair of cams andivhen the camshaft is in alongitudinal position where the section fit-A thereof will carry or drive these cams, and it will be seen. that at this time both cams areto gather and the length of `the arc of the raised cam sur'itaie is the smallest thereby holding the valve di open 'for the shortest time. Nom it the camshaft 19 he moved longitudinally so that the slots 82 and 84 at the section B-l engage the keys and 8G in their cams, the efect will be to retard. the earn 55 in relation to cam 60 so that the total raised cani surface is larger, the cam 6G serving to open valve i4 which is then held open until roller 58 passes o of the raised surface of cam 55, cam '55 serving to determine the point at which the transfer valve t closes. H the camshaft he further moved. to the point corresponding to the lowest speed `of the engine, or in other words. moved longitudinally so that the slots 82- and 8e' at the section CMC engage the/'keys 85 and 86 in their cams, the ed'ect will be to still farther retard. the earn 55 in relation to cam 60 so that the total raised cani surface iviil he further increased, caniA 60 serving to open the transfer valve at the saine time as the previous instances, but cam 55 allowing the transfer valve to close at a much later period, it being understood .that the time oi" closing of transfer valve 44 may he-gradually varied from that correspondingl to the position of the cams in. Fig. 1.0 at l? 'to that position indii'tated in. F l0 at H, said variation depending on the position oi@ camshaft 19.

The earns 6(1*55 and titi-5'4" on the es l other piston acts.

engine speed or starting position, at which point lever 90 will strike nut 70 and thereby hold air valve (il closed for the purpose hereinafter described; while the dash line 7 3 indicates the position of the control lever 90 at the maximum or highest engine speed or power.

In the operation of myengine the large diameter of each piston' acts to pump the charge of explosive mixture into the explosion chamber of the cylinder in which the Thus the mixture in pump chamber G of cylinder 1 is transferred through passage 10T to explosion chamber 5 of cylinder 2, while the mixture in pump chamber 7 of cylinder 2 is transferred through passage 108 to explosion chamber 4: of the cylinder 1.

llfly engine operates on the two stroke cycle, or in other words, a cycle of operations is completed each time a piston makes two strokes while the crankshaftmakes one i revolution; the cycle of voperations of each cylinder being spaced 180 degrees or one half of a crankshaft revolution behind the cycle of operations in the othercylinder, it-

parts for one cylinder are arranged for opofA the otherV cylinder.

eratioi'i one -half revolution behind the parts This arrangement gives one explosion stroke every half revo'- lution or two explosions per revolution of the flywheel (or crankshaft).

The operation of my engine is as follows, particular reference being had to the diagram in Fig. 18 in connection with the other drawings: In the diagram the large circles represent the operations in the pump cham bers while the smaller inner circles represent the operations in the explosion chambers, the two circles for each cylinder being concentrically arranged and having the dash line P to indicate the engine camshaft (which has its direction of rotation indi-1 cated by the arrows) relative capacity of mixture air andpuinp chambers, etc.

t is assumed that suitable well known accessories are provided for the operation of the engine, such as a suitable source of ignition current led to the spark plugs 78 and 79, water circulation W to keep the cylinders cool. oiling system for lubrication, and means to supply a suitable explosive mixture to the inlet 22wvhich is preferably by a carbureter, etc. On thedown stroke (S to T) of the double area piston in cylinder l the explosive'mixture is drawn into the pump chamber Gthrough inlet 22 and p assages 23 and 24,' the inlet valve 26 being opened by its cani about at ,point Fin the diagram and held open kto point H, and when about point G is reached the air valve passage 10T. At point H where the said air p and inlet valve close, the pump chamber will be filled with an explosive gas mixture while the transfer passage will be filled-- with a charge of pure air, and it should be noted that, while the said air valve is open, the pump chamber is opened directly to the atmosphere so that the pump chamber is much more. completely filled than would be the case if all the mixture were drawn through the inlet 22. Thisis an important feature of my inventionv especially in connection with the relative size or capacities of the pump and explosion chambers. It should also be noted that both the 'inlet and air valves tend to open automatically when there is a suction in the pump chamber, but it is preferable to use springs suiiicieiitly stiff in combination with the cam operation of the valves, which allows the relative quantities of the aircharge and the explosive mixture charge to be determined with precision and also has the further great advantage of almost entirely avoiding the resistance of the valves to the passage of duid.

The relative quantity of air and explosive mixture may be varied if desired by chang ing the relative shape of the air and inlet valve cams, and it will be eeen that (as illustrated) most of the explosive mixture is supplied or draw-n in before the air valve is opened to admit air. @n the up stroke of the piston in cylinder 1, the charge in the f pump chamber Gand connected passages 2st and 10T (which may be termed compression space) is compressed to a comparatively low pressure (low pressure compared to the compression in the explosion chamber) up to point I, part of the mixture being coinpressed into said connected passages and the local air charge being compressed into the upper end of passage 107. At point L in cylinder 2 the piston is near the lower end of its stroke, thereby opening the exhaust v port 53, and alinos imuiediately the transfer valve 415 is opehed at point U and the compressed charge from the pump chamber 6 is-admitted or transferred te the explosion chamber 5, the p'ure air being admitted lirst and followed by the explosive mi\ture` while the exhaust occurs; that is, all the products of combustion are pushed out of the exhaust port 53 at the lower end of the explosion chamber, while the fresh charge enters at the top endo-f the explosion chamber, a layer of ait' being interposed in between the outgoing l(often still burning) exhaust gases and the iiihomiii-g explosive charge, which tion straits (peint the pump chamber 6 is completely illecl., the pump chamber being completely fille-:l at. this time under all conditions of engine loacl or speed and enougl'i new charge being rlrawn in through 'the inlet as has been nsecl in she explosion chamber iso make the previous explosion.

As the parte and operations in one cylinn der are just the same as 'the parts and operatlonsin the other cylinder, the cycle of operations as above described for the pump chamber 7 and. the explosion chamber is supply of the auxiliary air charge. lhis is accomplished by shifting; the controllever 90 to the correspondmeT or starting' position indicated by the (lash line 72, at which time the lever 90 will strike nut l0 and more rod (S9 and connecieol parte, which results in closing the valve 61 and thereby shuts oiln the supply of the auxiliary air charge through passage 109. lWhen the auxiliary air supply is shut oil incre is a greater suc tion through the inletwhich tends to more completely raporizc the fuel and thereby maire starting of the cosine easier. 0f course, my engine will operate al; higher speeds without any auxiliary air charge, but the usc of the air charge as (lescribenl increases the en ;fine eiicienclv cnil maires be maximum engine speed possible, as at Athe maximum sprcfis the burning' exhaust gases in the cr'plosiou chambers will ignite the incoming; lfresh charge unless the fresh charge anrl exhaust fase? are separated by a noirconbustiblc mcfliunl such as air. l/Vhcn the air is shut oli'. all of the charge or mixture in the pump chambers and connected transfer passages is composed of the explosive mixtureI which was originallv drawn in through the inlet. it will be noted that the air is shut of?. rather abruptly w`lum the control handle about reaches the starting position inilicateil by line 72) flue to thc proportions of the lever G7 ami this shutting olil thc air may be inachmore gradual iic I lcsircrl by corrcspomlionly changua the relative lengths of the lever ai'ms o' lever (i7.

An impor-toni feature ci my invention is the relative capacity the-,pump alul ex plosion chambers, which is such that cach explosion chamber is thorouuhly scarenged of all products of combustion at each exhaust stroke andis also partly cooled interi nally. This relative capacity will vary somewhat in different sizes of engines having di'erent sized compression spaces(110), l

but the capacity ot' the pump chambers is always preferably larger than the capacity of the explosion chambers. The size of the large end l1 of the pistons in my engine is preferably such that its displacement capacity in the pump chamber (i (or 7) is about sion chamber 5; anal this surplus is utilized4 to pump an quantity of pure cool air through "ehe combustion or explosion chamber to perform aY scavenging and cooline action during the exhaust part. of the cycle. Thus, (hiring the transfer or exhaust part'of the cycle, the charge pumped into the explosion chamber is composed of about 25% to of pure air and the remainder composed of the explosive charge, the air entering; the explosion chamber first and the sinplus oi the toal charge passes our of the exhaust ports, this Surplus being the pure air which entered the explosion. chamber in addition to, ancl ahead of the explosive charge.

YWhile l have herein shown ancl. particularly described the prel'erred embodiment or my invention. ll (lo not limit myself to the preciso construction anti arrangement as herein set forth. but

Having thus described .my inrentiomxvhat li claim as new anrl desire to secure by Lesicrs upaient is:-w

1. ln a sivo cycle explosive engine, the combination of a pump chamber ami an esplosive chaniber, an inletv to said pump chamber, a valve in said inlet. mechanical means to open saifl valve duringr substantially the whole or greater part oi the suction stroke in saiil pump chamber reLarClless of the suction therein. whereby said in-A let may be opened during the hereinafter rejection, means to transfer the charge from the pump chamber to the explosion chamber, and means to reject or return a part of tbc charge from the explosion chamber to the pump chamber prior to ignition.

2. lu -a two cycle explosive en a'ine. the

cmnbinatim'i of a pump chamber and an explosion chamber. means to afbnit au explosive mixture to the pump chamber. means to open said pump chamber to the air supply after the main charge of explosive mixture has been admitted to the pump chamber. means to transfer the charge `from the pump chamber to tbecxplosion chamber` `and means to return a part. of the charge from the explosion chamber to thc pump chamber prior lo ignition.

lu a two cycle explosive engine. the

lli-i lil() combination of a pump chamber and an plosion chamber, an, explosive mixture inlet to the pump chamber, a separatl air inlet to admit air to be drawn into the pump 5 chamber in addition to and separate from the explosiveniixture, means conlining and controlling said air whereby said air will enter the explosion chamber inaddition to and ahead of the explosive charge, and onieans to ci'lect the return ot a part or' the chargel from the explosion chamber to the pump chamber lprior to ignition in the cycle for the purpose of regulation as described. 5 il. In a two cycle explosive engine, the combination of a pump chamber andan explosion chamber, a valve controlling" the turn of a part of the explosive mixture ltroni the explosion chamber to the pump chamber prior to ignition, automatic means to vary the time said valve remains open, to 'thereby regulate' the vquantity of mixture turned as above, and manual means by which the action oil said automatic means ,5 can be chanmd, substantially as described.

5. ln a tio cycle explosive engine, the combination oip a pump chamber and an ein plosion chamber, an explosive inixture lrilet to the pump chamber, a separate air inlet 1to said pump chamber, means to regulate the speed or power of said, engine, and means to close. said air inlet and render same inopei" ative during par, of the said regulation.

G. ln a two cycle explosive engine, the

combination of a pump chamber and an plosion chaii'iber, an explosive niixtiireiiilet to the pump chamber, a separate air inlet vto said pump chamber, means to transtcr the eh: rge from the pump ciianiber to the 0 explosion chamber, means to etlect the re turn of part of said charge from the eX- plosion chamber to the pumpchamber. to regulate the speed or power or the engine, and means to close said air inlet and render of said engine. I n

'it In a two cycle engine, the combination ot two cylinders parallel to each other, a two diameter piston in the two diameter bore of each oflsaid cylinders, the small ilianieter partot' each piston forming an explosion chamber with its cylinder", tlielargc diameter part of each piston .roi-ming; a. pump chamber with its piston, inlet valves to said pump chambers, Amechanism to open said inlet valves during practically the whole or'most ot the suction stroke iu'sa'id pump chambers whereby said valves may be open during the hereinafter rejection, means to elect the transfer of the charge from the pump chamber of each cylinder to the explosion chamber of the other cylinder alternately, and means to effect the return or re- Iiection ot' part of the charge from each ex"- l plosion chamber to the pump chamber of same inoperative during part ot' the cycle terasse the other cylinder prior to ignition, substantially as described.

8, A. tivo cycle engine having a. pump chamber and an Xplosion chamber with a pistonl therein, a valve for controlling the admission of fluid to said explosion chain*- ber, a second valve concentric on the stein ot said first valve, for controlling the admission of lu'id to the pump chamber or pas sages forming l part thereof, and a third valve or inlet controlling the admission of the main body of fluid. to the pump chain ber, substantially as described.

l). In. a two c; cle engine, the combination or" a pump chamber and an explosion chamherewith a piston therein, an inlet to the pump chamber, means to effect the transfer of the cha r "e from the pump chamber to the explosion chamber, means to permit exhaust from the explosion chamber, a valve eontrolling the return of part of the charge from the explosion Chamber to the pump chamber prior to ignition, an actuating cani to open said valve, a, second canicontrolling the closing of said valve, and .means to shift said second cam relative to the first cainrjxrhereby the duration oi' opening` of said valve may be varied substantially as described by the unit actuation of said cams.

G. ln a two cycle explosive engine, the combination ol an exolosion chamber, an ein plosive mixture pump chamber having a displacement capacity substantially equal to or greater than the combined displacement capacity of the piston in the explosion chamber and the compression space of the explosion chamber above the piston, an explosive mix turc inlet to said pump chamber, an air inlet to said pump chamber, a lot, mechanical means to time 'the opeirilng,r oli said air valve and thereby control admission, oi' air to said pump chamber in addition to but after the admission of part oinv the explosive mixture, and means to transfer said air and explosive mixture to the explosion chain.` ber. .y

ll. In a two cycle engine, the combination of two cylinders, a two diameter piston in the two diameter bore oteacli of said cylinders and forming;M therewith a pump charner and an explosion chamber for each cylinder substantially as described, means to admit explosive gas to said pump chambers, means to admit air to said pump chambers in addition to but after the main charge of explosive gas has been admitted to cach of the pump chambers substantially as described, and means to transfer the charge .from the pump chamber of cach cylinder to the explosion chamber of the other cylinder alternately, all substantially asidescribcd.

l2. ln a two cycle engine, the combination of two cylinders, a two diameter `piston in the two diameter bore of each of said cylinders and forming therewith a pump chamvalve in said air inllO ber and an explosion chamber for each cylinder, substantially as described, means to admit a substantially constant quality of mixture to the pump chambers under varying conditions or" engine operation, means tov transfer the mixture from the pump chamber of each cylinder to the explosion cha-mber of the other 'cylinder alternately as cle-- -and forming therewith a pump chamber,

and an explosion chamber for each cylinder substantially as described, means to admit explosive gas to said pump chambermmeans to admit air to said pump chambers in addition to but after ,the main charge of eX- plosive gas has been admitted to the pump chambers substantially as described, means to transfer the charge from vthev pump chamber of each cylinderto the explosion chamber of the other cylinder alternately, andmeans to return a portion rof the charge from each explosion chamber to its connect-A I ed pump chamber, all substantially as described.

In Witness whereof, lk hereunto subscribe my name this fourth dayof May A. D. 1910. HOWARD WIXN. f

Witnesses: f

MAX W. ZanEL, Hazen JONES. 

